JP2005173759A - Image processing system and terminal processing apparatus, and photographic processing apparatus constituting the system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processing system for increasing the work efficiency of the photographic processings as a whole, including image processing and print processing. <P>SOLUTION: The system is equipped with: a photographic processing apparatus 1 having a 1st image processing part 10 having a function of processing inputted image data and an exposure engine 32 which exposes paper to print an image, based on image data for exposure; a terminal processing apparatus 2 equipped with a 2nd image processing part 40, having a function of processing the inputted image data; and a network means 3 of connecting the photographic processing apparatus 1 and terminal processing apparatus 2, wherein the terminal processing apparatus 2 has a means of generating correction data, as a result of the image processing of the 2nd image exposure part 40 and a data sending-out means of sending out image processing data, including the inputted image data and correction data to the network means 3, and the photographic processing apparatus 1 is equipped with a means of receiving the sent-out image processing data and an image processing substrate 20 which generates the image data for exposure, based on the image processing data. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a photographic processing apparatus having an image exposure unit for printing and exposing an image on a photographic photosensitive material based on image data for exposure, and a second image processing unit having a function of performing image processing on input image data An image processing system including a terminal processing apparatus including the image processing apparatus, one or a plurality of photo processing apparatuses, and network means for connecting the one or a plurality of terminal processing apparatuses, and the image processing system. The present invention relates to a photographic processing apparatus.

An outline procedure of photographic processing in such a photographic processing apparatus will be described. The photographic processing apparatus performs appropriate image processing on the input image data, and generates exposure image data based on the image processing data obtained by the image processing. Type of image data to be input there are various ones, negative film or other image data obtained by scanning a photographic film such as a positive film, digital cameras storage media (SmartMedia ^TM, CompactFlash ^TM , there is image data to be input Stick ^TM, etc.) or a CD-R, a recording medium such as an MO. Various types of image processing are performed on the image data captured in the photographic processing apparatus, and a typical one is color / density correction.

  Therefore, the input image data is displayed on the monitor screen in order to check the color and density. Normally, a plurality of images are displayed on the monitor screen, and the operator determines whether or not a photo print is created with an appropriate color and density while viewing the displayed images. When it is determined that printing is not performed with appropriate colors and densities, color correction data and density correction data are input as appropriate. The image processing unit provided in the photographic processing apparatus generates exposure image data based on the correction data obtained as described above and the input image data.

  The exposure image data is transferred to an exposure engine (which constitutes an image exposure unit), and an image is printed on the emulsion surface of the photographic material. The exposure engine has a function of forming an image on a photographic material by scanning exposure light based on exposure image data. An example of the exposure engine is a laser engine that forms an image by scanning laser light. The photographic light-sensitive material on which the image is printed and exposed is sent to a development processing unit, subjected to development processing and drying processing, and then discharged to the outside as a finished photographic print.

  As described above, the photographic processing apparatus has a function of performing image processing on input image data and a function of performing print creation using the generated exposure image data. There is a problem that print creation processing cannot be performed in parallel with image processing work. That is, if an attempt is made to perform the print creation process even while the image processing operation is being performed, a great load is imposed on the CPU, so that the operator who operates the photo processing apparatus can perform the operation smoothly. Cannot be performed or control inside the photo processing apparatus cannot be performed at an appropriate timing, resulting in a decrease in processing reliability. Therefore, the image processing and the print processing cannot be performed in parallel at the same time, and therefore the operating rate of the photographic processing apparatus is lowered, and as a result, the operator's work efficiency is also lowered.

  On the other hand, a photo print creation system in which a reception terminal device and a photo processing device are connected by a network means is known (for example, Patent Document 1 listed below by the present applicant). In this system, a photo processing apparatus for creating a photo print and a terminal computer are connected by a network means. In the photographic processing apparatus, image data from a developed photographic film is mainly input, and image data from a recording medium such as a digital camera is input from a terminal computer. As described above, since the reception work is distributed according to the type of image data, the work efficiency related to the reception process can be increased.

  The image data received by the terminal computer is transferred to the photo processing apparatus and a photo print is created. As described above, the image processing work is concentrated on the photo processing apparatus. . Therefore, although the efficiency of the reception process is improved, since the simultaneous processing of the image process and the print process cannot be performed, the operation rate of the photo processing apparatus is not changed.

  Therefore, a configuration in which an image processing function is provided in a terminal processing device (terminal computer) connected to the photographic processing device by network means without concentrating image processing by the photographic processing device is conceivable. In other words, image processing is performed by the terminal processing device, data obtained as a result is transferred to the photo processing device, and a photo print is created by the photo processing device.

  However, when image processing is performed by the terminal processing apparatus, if the finally required data (exposure image data) is generated, the following problems arise. That is, the photographic processing apparatus is provided with exposure image data generating means configured with hardware as a core for generating exposure image data. Since the image processing is performed by hardware, the processing speed is high and the photo print creation process can be performed efficiently. However, if an image processing function by hardware is to be installed, the cost increases compared to image processing by software.

Therefore, if it is attempted to install the same hardware in the terminal processing device, the cost will increase, and if the number of terminal processing devices connected to the network increases, it may be difficult to introduce in terms of cost. It is done. On the other hand, if the image processing unit by software is provided in the terminal processing device and the image data for exposure that is finally required by the image processing unit is generated, the processing efficiency in the terminal processing device is lowered. Also, the image data for exposure is usually larger in size than the image data when it was first input. If such large image data for exposure is sent to the network, the network line is congested. Another problem arises.
Japanese Patent Laid-Open No. 2003-241935 (FIG. 1, FIG. 2, etc.)

  The present invention has been made in view of the above circumstances, and its problem is that an image processing system capable of improving the working efficiency of the entire photographic processing including image processing and print processing, a photographic processing apparatus used in the system, and It is to provide a terminal processing device.

In order to solve the above problems, an image processing system according to the present invention provides:
A photographic processing apparatus having an image exposure unit for printing and exposing an image on a photographic photosensitive material based on image data for exposure;
A terminal processing apparatus including an image processing unit having a function of performing image processing on input image data;
An image processing system comprising one or a plurality of the photographic processing devices and a network means for connecting the one or a plurality of the terminal processing devices,
The terminal processing device
As a result of image processing in the image processing unit, means for generating correction data;
Data sending means for sending image processing data including input image data and correction data to network means;
Photo processing equipment
Means for receiving image processing data sent by the terminal processing device;
It is characterized by comprising exposure image data generating means for generating exposure image data based on the image processing data.

  The operation and effect of the image processing system having this configuration will be described. In this image processing system, one or more photographic processing apparatuses and one or more terminal processing apparatuses are connected by a network means. The photographic processing apparatus is provided with an image exposure unit, and the terminal processing apparatus is provided with an image processing unit. Image data input to the terminal processing apparatus can be subjected to image processing by an image processing unit provided in the terminal processing apparatus. With this configuration, image processing work can be concentrated on the terminal processing device side, and in parallel with this, the photo processing device can perform print processing for other orders. Image processing data obtained as a result of image processing by the terminal processing device can be printed by transferring it to the photo processing device. In the photo processing apparatus that has received the image processing data, the image data for exposure is generated by the image data generating means for exposure. The image exposure unit can form an image on the photographic photosensitive material using the generated image data for exposure.

  Further, the image processing data transferred to the photographic processing apparatus is composed of the input image data and correction data, and the amount of data may be reduced compared to the image data for exposure that is finally required. it can. Therefore, even if such image processing data is transmitted to the network, the line is not unnecessarily congested. Further, since it is not necessary to generate image data for exposure in the terminal processing device, the processing efficiency in the terminal processing device can also be maintained. With the above configuration, it is possible to improve the work efficiency of the entire photographic processing including image processing and print processing.

  The correction data according to the present invention preferably includes data of the number of image exposures. For example, a method of sending the same image data and correction data to the network a plurality of times is conceivable, but there is a problem that the amount of data increases. Therefore, the data amount to be sent to the network can be reduced by sending the exposure number data together.

A terminal processing apparatus constituting an image processing system according to the present invention is connected to a photographic processing apparatus having a function of generating exposure image data based on image processing data via a network means,
An image processing unit having a function of performing image processing on input image data;
As a result of image processing in the image processing unit, means for generating correction data;
The image processing apparatus includes data sending means for sending image processing data including input image data and correction data to network means.

Furthermore, the photographic processing apparatus constituting the image processing system according to the present invention is connected via a network means to a terminal processing apparatus having an image processing unit having a function of performing image processing on input image data. And
An image exposure unit that prints and exposes an image on a photographic photosensitive material based on image data for exposure;
Means for receiving image processing data including image data and correction data transmitted by the terminal processing device;
An exposure image data generating unit that generates exposure image data based on the image processing data is provided.

  With the terminal processing device and the photo processing device having such a configuration, as described above, the work efficiency of the entire photo processing including image processing and print processing can be improved.

  A preferred embodiment of an image processing system according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing an outline of the system.

<Configuration of image processing system>
In FIG. 1, in an image processing system, a photographic processing device 1 and a terminal processing device 2 are connected by a network 3. The number of the photo processing apparatuses 1 connected to the network 3 is one or a plurality, and the number of connected apparatuses can be arbitrarily set. Similarly, the number of terminal processing devices 2 connected to the network 3 is one or more, and the number of terminals connected can be set arbitrarily. Network 3 is, for example, is constructed by LAN by Ethernet ^TM, may be connected by a network 3 other than Ethernet ^TM. The network 3 is configured to be connectable to the server 5 via the Internet 4.

  The image processing system constructed by the photo processing device 1 and the terminal processing device 2 is installed in, for example, a photo shop. The photo processing apparatus 1 and the terminal processing apparatus 2 do not need to be installed on the same floor, and can be installed on a plurality of floors. Further, a part of the photographic processing apparatus 1 or the terminal processing apparatus 2 may be installed at a distance away.

  Next, functions of the photo processing apparatus 1 will be briefly described. The photographic processing apparatus 1 can print an image on the emulsion surface of paper (photosensitive material) based on the input image data to create a photographic print. The image data input to the photographic processing apparatus 1 may be input directly to the photographic processing apparatus 1 or input via the network 3. That is, the photo processing apparatus 1 can selectively set at least the first print mode and the second print mode.

  In the first print mode, the photographic processing can be executed by the photographic processing apparatus 1 alone regardless of the connection state with the network 3. A typical process is a process of reading a frame image of a developed photographic film by the scanner device 6 and creating a photographic print using the acquired image data. The image data acquired via the scanner device 6 is not used immediately for image exposure, but after various image processing is performed, image data for exposure is generated, and the image data for exposure is used. The image is printed and exposed to paper. The photographic processing apparatus 1 is provided with a first image processing unit 10 (see FIG. 2) for performing image processing.

  On the other hand, in the second print mode, image data (image processing data) transferred via the network 3 is input. As in the case of the first print mode, exposure image data is generated based on this image data, and a photo print is created. In the second print mode, image data (image processing data) is transferred from the terminal processing device 2 connected to the network 3.

Here, the function of the terminal processing apparatus 2 is demonstrated easily. The terminal processing device 2 can be configured by a general-purpose personal computer system, for example. The image data handled by the terminal processing unit 2, an image data stored in the recording medium of the storage medium (SmartMedia ^TM, CompactFlash ^TM, Memory Stick ^TM, etc.) or a CD-R, MO or the like of a digital camera, these media A drive device is provided for acquiring image data from the image data.

  Similarly to the photo processing apparatus 1, the terminal processing apparatus 2 is also provided with a second image processing unit for performing image processing. Therefore, when image data input from the terminal processing device 2 is transferred to the photo processing device 1, image processing data obtained as a result of image processing by the second image processing unit is transferred.

  The image processing system according to the present invention is configured to be connectable to a server 5 via the Internet 4, and the server 5 can receive a print order from a general user online. That is, the user uploads image data for which he / she wants to create a photo print to the server 5 using his / her personal computer. In the photo shop, the image data uploaded to the server 5 can be downloaded at an appropriate timing to create a photo print. The server 5 also has a function of providing an online album to the user. The downloaded image data is stored in the terminal processing device 2, for example.

<Functional block configuration of image processing system>
<Functional block configuration of photo processing apparatus>
Next, main functions of the image processing system will be described with reference to the block diagrams of FIGS. First, the main functions of the photo processing apparatus 1 will be described with reference to FIG.

  The scanner device 6 is a device for acquiring image data from a frame image formed on a developed photographic film. Although not shown, a light source for reading image data, a CCD line sensor, and the like are provided. Image data can also be obtained from a medium other than photographic film, and an image input device 7 for this purpose is provided. The image input device 7 can acquire image data stored in various recording media in the same manner as the terminal processing device 2 described later. The image data acquired via the scanner device 6 or the image input device 7 is temporarily stored and held in the image data storage unit 8. Note that the photo processing apparatus 1 may not have the function of the image input apparatus 7. This is because the terminal processing apparatus 2 is provided with the same function.

  The first image processing unit 10 has a function of performing image processing on image data, and is configured by software. The first image processing unit 10 includes a GUI 11, an image processing unit 12, and a hardware control unit 13. The GUI 11 is a graphical user interface, and can perform data input operations relating to image processing through a monitor screen.

  FIG. 4 shows a screen configuration example when performing image processing. Here, four of the read images are displayed on the monitor screen. The number of images to be displayed on the monitor screen is not limited to four, but can be set as appropriate, for example, six or eight. The operator can determine whether or not a photographic print is created with an appropriate color and density while viewing the monitor screen. In this monitor screen, the image data 51 is displayed with image data acquired from photographic film or the like.

  Reference numeral 52 denotes a data display area, which displays an average density value, a frame number, and the number of prints of an image. A separate display area 53 is provided at the upper right of the display image 51, and the correction data input from the keyboard 16 for the respective colors Y (yellow), M (magenta), and C (cyan), and the same density correction data. Is displayed. Further, information related to the print size is displayed in the display area 54 below the display image 51. For example, “P” indicates the panorama size. The display area 55 shows the name of the print channel. The print channel will be described later.

  The operator looks at the monitor screen as shown in FIG. 4 and inputs correction data using the keyboard 16 for an image determined to be corrected for color and density. When correction data is input, an image corrected based on the input correction data is displayed in real time on the same monitor screen. Therefore, the operator can appropriately perform image processing while visually confirming the corrected image. The first image processing unit 10 has the function of the image processing unit 12, and an image obtained as a result of image processing by the function of the image processing unit 12 that performs image processing based on the correction data input from the keyboard 16. Appears on the monitor screen again. The input of the correction data is performed to some extent by trial and error, and the finally determined correction data is temporarily stored in the correction data storage unit 17. The correction data is data in a form attached to each image data. The image data storage unit 8 and the correction data storage unit 17 are collectively defined as a data storage unit 18.

  Also, the size of the image displayed on the monitor screen is different from the size of the input image data, and usually thumbnail images with a reduced size are displayed on the screen. The processing for generating the thumbnail image data is also a function of the image processing means 12, and the image processing performed while looking at the monitor screen is also performed based on the thumbnail image data.

  The correction data includes not only those relating to color / density correction but also correction parameters relating to special corrections such as red-eye correction, backlight correction, and gradation correction. Also, the number of prints can be corrected and input on the monitor screen shown in FIG. 4, and the data of the number of prints is also included in the correction data.

  The hardware control means 13 is a function that controls the image processing board 20 that is hardware. Image processing data obtained as a result of image processing in the first image processing unit 10 is transferred to the image processing board 20 to create exposure image data. Here, the image processing data is composed of at least image data and correction data. As the image data, the image data acquired from the scanner device 6 or the image input device 7 is directly transmitted to the image processing board 20. Can do.

  When image processing is performed by the first image processing unit 10, it may be immediately sent to the image processing substrate 20 for print processing, but it may be performed later at an appropriate time zone. Therefore, the order data storage unit 9 is configured to store data. The concept of order can be set as appropriate at a photo shop. For example, one photographic film and one recording medium can be handled as one order. The order data storage unit 9 stores image data and correction data, and these data are assigned an order ID and managed in order units.

  Further, even when image processing is performed by the first image processing unit 10 and printing processing is performed immediately, data is stored in the order data storage unit 9. This is preferably stored as order data because a reprinting process or a reprinting process may be performed even if the printing process is performed once. If the image data and the correction data are stored in association with each other, it is not necessary to repeat the same image processing when performing reprinting processing, and the result of the image processing remains as correction data. It can be used again. The reprint process is a process in which the print process is performed again at the discretion of the operator when the quality of the finished photo print is not good, and the reprint process (reorder process) is performed in response to a request from the customer. This means the same print creation process. Accordingly, the image data and the correction data are not deleted even when the print process is performed, but the data is stored and stored in the order data storage unit 9 as described above.

  In addition, when performing image processing and print processing in the first image processing unit 10, it is necessary to set various setting data in advance. The setting data is stored in the setting data file storage unit 14. As setting data, for example, data relating to a print channel can be mentioned. A print channel registers the type of paper used to create a photo print (surface quality, manufacturer, etc.), print size, image data source (data from a digital camera or negative film, etc.), etc. It is a thing. Therefore, if you want to create a photo print of a specific print size based on image data obtained from a digital camera, you need to select a print channel that is suitable for it, and for that purpose such a print channel Must be set in advance. Other setting data includes the amount of change per key operation when correction data is input from the keyboard during image processing operations. For example, when a specific key on the keyboard is pressed once, the Y color can be set to change by “+1.5” when it changes by “+1”.

  Next, the image processing substrate 20 will be described. The image processing board 20 is provided with a reception memory 21, an image processing means 22, a transmission memory 23, and firmware 24. The image processing board 20 has a function of generating image data that is actually used for exposure. The reception memory 21 receives the transmitted image data and correction data. Unlike the image processing unit 12 of the first image processing unit 10, the image processing unit 22 is based on hardware. Based on the correction data, the processing content by the firmware 24 can be set, and based on this, processing for generating exposure image data is performed. As described above, since the image processing board 20 is configured with hardware as a core, image processing by the image processing board 20 is performed at high speed.

  The image processing performed in the image processing means 22 not only generates corrected image data having a color and density corrected based on the correction data, but also has data having the same size as the print size to be created. Enlargement processing, or rotation processing that converts the vertical and horizontal directions of the image, special corrections such as red-eye correction and backlight correction performed as necessary, color matching correction to match the color of the finished photo print with the color of the monitor screen, Examples include corrections that take into account the type of developing solution and changes over time. In addition, processing for expanding image data in a compressed file format such as JPEG into a bitmap is also performed. The exposure image data obtained as a result of processing by the image processing means 22 is sent to the transmission memory 23.

  The image processing data transmitted to the image processing board 20 includes those created inside the photo processing apparatus 1 and those transmitted via the network 3. Therefore, the processing selection means 25 is provided, and image processing data from either one can be received. As described above, the photo processing apparatus 1 can selectively set the first print mode and the second print mode. In the first print mode, image processing data generated inside the photo processing apparatus is received, and the second print mode is received. In the print mode, image processing data from the network 3 is received and print processing is executed. Note that the process selection means 25 switches functions in terms of software, and is conceptually shown in FIG. The mode can be switched by displaying a mode setting screen on the monitor 15 and selecting one of the print modes.

  Next, the configuration of the printer processor unit of the photo processing apparatus will be briefly described. In the paper magazine 30, a long paper, which is a photographic photosensitive material, is accommodated in a form wound on a roll. A plurality of paper magazines 30 can be attached to the photographic processing apparatus 1. Thereby, a plurality of types having different paper sizes can be prepared in advance. The paper drawn from the paper magazine 30 is configured to be conveyed along a predetermined conveyance path, and is cut into a predetermined print size by a paper cutter 31 provided along the conveyance path. The cut paper is conveyed to an exposure engine 32 (corresponding to an image exposure unit). The exposure engine 32 uses the exposure image data transferred from the transmission memory 23 of the image processing board 20 to expose and form an image on the emulsion surface of the paper. The exposure engine 32 forms a latent image by scanning the exposure light in the main scanning direction on the paper conveyed in the sub-scanning direction at a constant speed. As the exposure engine 32, those having various structures can be adopted. For example, a laser engine, a PLZT engine, a CRT engine, or the like can be adopted.

  The paper on which the image has been baked and exposed by the exposure engine 32 is sent to the development processing unit 33 and subjected to image processing, and then subjected to drying processing in the drying processing unit 34, and a finished photographic print is produced from the paper discharge unit 35. It is discharged outside. The discharged photographic prints are accumulated in an accumulation unit (not shown) in units of one order.

<Functional block configuration of terminal processing device>
Next, functions of the terminal processing device 2 will be described with reference to the block diagram of FIG. Similar to the photo processing apparatus 1, a second image processing unit 40 for performing image processing is provided. The second image exposure unit 40 is configured by software, and includes a GUI 41, an image processing unit 42 (corresponding to a unit that generates correction data), and a module that functions as the network control unit 43. The GUI 41 and the image processing unit 42 have the same functions as the GUI 11 and the image processing unit 12 of the first image exposure unit 10 of the photographic processing apparatus 1. That is, the photo processing apparatus 1 and the terminal processing apparatus 2 use the same software except for the hardware control means 13 and the network control means 43 modules. The image processing data obtained in the terminal processing device 2 is transferred to the photo processing device 1 via the network 3 based on the function of the network control means 43 (corresponding to the data sending means for sending the image processing data to the network). can do.

  Unlike image processing software that is generally commercially available, image processing software used in the photographic processing apparatus 1 has various functions necessary for photographic processing. In terms of usability, improvements have been made compared to general software. On the other hand, the terminal processing device 2 can be configured by a personal computer, and it is conceivable to install general image processing software. However, in this case, there are the following problems.

  If the image processing software differs between the photographic processing device 1 and the terminal processing device 2, a plurality of types of software must be learned, which increases unnecessary work. Photo shops often hire part-time workers and part-timers, and if there are many types of software, the training time for these store staff also increases, which wastes the work time that should be spent on the original photo processing. It will also be. Therefore, by making the software used in the photo processing device 1 and the terminal processing device 2 substantially the same, it is possible to eliminate unnecessary work of learning how to use the software. Therefore, the image processing operation in the terminal processing device 2 can be performed in exactly the same manner as in the case of the photo processing device 1.

  A monitor 44 and a keyboard 45 are provided for performing image processing and other photographic processing operations. The setting data file storage unit 46 stores a setting data file, which is basically the same as the setting data file stored in the photo processing apparatus 1. Thereby, work such as image processing can be performed under the same conditions in the photographic processing apparatus 1 and the terminal processing apparatus 2, and the same processing is performed regardless of whether the photographic processing apparatus 1 or the terminal processing apparatus 2 performs image processing. Quality photo prints are obtained.

  The image input device 47 is a device for acquiring image data from a storage medium of a digital camera or other recording media. The input image data is temporarily stored in the image data storage unit 48. The image processing operation by the second image processing unit 40 is the same as that already described in the photo processing apparatus 1, and the configuration example of the monitor screen can be the same as that in FIG. The correction data obtained by the image processing by the second image processing unit 40 is temporarily stored in the correction data storage unit 49. The image data storage unit 48 and the correction data storage unit 49 are the same as the image data storage unit 8 and the correction data storage unit 17 in FIG. The image data storage unit 8 and the correction data storage unit 17 are collectively defined as a data storage unit 53.

  Here, the correction data will be described in more detail. The correction data includes correction values for each color of Y (yellow), M (magenta), and C (cyan) when correction is made for the color. When correction is not performed, correction data indicating a correction value 0 is generated. The same applies to the density correction. Other correction data include print number data, print size data, on / off data indicating whether or not to rotate the image, rotation angle data when rotating, and data for adjusting the print position (horizontal direction and Vertical correction), sharpness correction data, contrast correction data, and saturation correction data. Also, correction data is created when special correction such as red-eye correction or backlight correction is performed. When the processing contents become complicated like special correction, conversion table data is generated as correction data. These correction data are stored, and these correction data are transmitted when the print processing is performed.

  As described above, a photo print is created based on the image processing data obtained by the image processing by the second image processing unit 40. However, it is not necessary to immediately perform the print processing, and the data is stored. It is also possible to perform print processing collectively later. For this purpose, an order data storage unit 50 is provided, in which order data can be stored. This is the same as the case of the order data storage unit 9 in FIG. In other words, image data and various correction data are stored and stored, and can be easily adapted to reprint processing and reprint processing.

  In addition to the image data and the correction data, the data to be stored is also stored for the image file name and the type (type) of the input medium. Further, since the data is managed in units of orders, an ID for specifying the order and customer information as necessary are also stored.

  The image processing function in the terminal processing device 2 is only the second image processing unit 40 configured by software, and hardware (image processing board) as provided in the photographic processing device 1 is not provided. Since the image processing board becomes expensive in cost, it is not preferable to install the image processing board in each of a plurality of terminal processing devices because the cost required for system construction increases considerably.

  The terminal processing device 2 can perform image processing work intensively regardless of the operating status of the photo processing device 1. While the terminal processing device 2 performs image processing, the photo processing device 1 can perform print processing separately from this, so that the processing efficiency of the entire image processing system is improved. Even if the power of the photo processing apparatus 1 is turned off, the image processing can be performed only by the terminal processing apparatus 2. For example, image processing can be performed collectively at night when the photo processing apparatus 1 is not operating, order data can be accumulated, and print creation processing can be performed collectively the next morning, so that work efficiency can be improved.

  If the image processing work can be performed only by the photo processing apparatus 1, even if it is desired to perform the image processing, if another operator is using the photo processing apparatus 1, it cannot be used because it is not possible to perform its own work. A long waiting time. According to the present invention, such a useless waiting time does not occur.

  When print processing is performed, the image processing data is sent to the network 3 via the image output unit 51. The image processing data is transferred to the photo processing apparatus 1 via the network 3, and image data for exposure is generated on the image processing board 20 of the photo processing apparatus 1, and a photo print is created based on this.

  The image data writing device 52 is a device for writing image data on a recording medium such as a CD-R or a DVD. In this case, the image data output from the image output unit 51 is transferred to the image data writing device 52. The data transferred to the image data writing device 52 is not the image data and the correction data, but the corrected image data corrected by the correction data. The processing for generating the corrected image data is performed by software in the terminal processing device 2. The image data writing device 52 does not have to be provided in all the terminal processing devices 2 provided in plural, and may be provided only in a specific terminal processing device 2.

<Print creation processing procedure>
Next, an outline of a processing procedure when a photo print is created by the photo processing apparatus 1 using the image data received by the terminal processing apparatus 2 will be described with reference to the flowchart of FIG.

  First, image data is acquired from a storage medium via the image input device 47 (# 01). The input image data is temporarily stored in the image data storage unit 48. The input image is displayed on the screen of the monitor 44, and it is determined whether or not an appropriate color / density print is created. If necessary, color / density correction data is input and other necessary image processing operations are performed (# 02). Image processing work is performed in units of orders, and when image processing data for one order is generated (# 03), it is determined whether or not to perform print processing (# 04).

  When print processing is not performed, the image processing data is stored as order data in the order data storage unit (# 15). Further, even when the print processing is performed immediately, the image processing data is stored in the order data storage unit 50 (# 05). As described above, this is to deal with a case where a customer requests a reprinting process later. When print processing is performed, the image processing data is sent from the image output unit 51 to the network (# 06).

  Note that the data transmitted here is image processing data including image data and correction data, and is not exposure image data finally provided for exposure. If the same data as the image data for exposure is sent to the network, the amount of data may be considerably large (particularly the size of four or six), causing the network 3 to be congested and hindering communication. Sometimes. In the case of the present invention, the image data sent to the network 3 sends the same data as the image data inputted from the image input device 47. If the input image data is a compressed file, the transmitted image data is also sent in a compressed state, and therefore, the minimum necessary data may be sent. Therefore, network congestion can be avoided in advance.

  In addition to image processing data, data sent to the network includes image file name data, input media type data, order IDs, terminal IDs (data for specifying the terminal processing device of the data transmission source), and the like. It is done. As for the correction data, simple data is transmitted in a binary format. However, in the case of complicated processing with special correction, it may be transmitted in the form of conversion table data.

  Since the terminal processing device 2 is not provided with hardware (image processing board) for generating image data for exposure, if it is attempted to generate image data for exposure in the terminal processing device 2, it is performed by software. However, as the data size increases, there is a problem that the burden on the CPU of the terminal processing device 2 increases. Therefore, it is preferable to transmit not image data for exposure but image processing data including image data and correction data as described above.

  The photographic processing apparatus 1 has means for receiving the image processing data sent from the terminal processing apparatus 2, whereby the image processing data sent to the network 3 is received by the reception memory 21 of the photographic processing apparatus 1. Then, the final image processing is performed by the image processing board 20 (# 10). As described above, the correction data includes data on the print size and the number of prints in addition to the correction parameters for correcting the color and density. Based on these data, exposure image data is generated from the transmitted image data (# 11). The generated image data for exposure is transferred to the exposure engine 32 (# 12), and the image is printed on the paper. The paper on which the image is printed and exposed is subjected to development processing and drying processing (# 13), and is then discharged to the outside as a finished photographic print (# 14).

<Another embodiment>
(1) The photographic processing apparatus according to the present invention may not be an apparatus in which the image processing unit and the image exposure unit are integrated. For example, in FIG. 1, the scanner device 6 has a structure separated from the photographic processing apparatus main body. However, the image processing unit and the image exposure unit may be separated from each other in the same manner as this. When disconnected, it is connected by a communication line.
(2) The terminal processing apparatus can be configured by a general-purpose computer (personal computer), but is not limited thereto, and may be configured by a computer specialized for a specific function.
(3) In this embodiment, image processing data including image data and correction data is transferred from the terminal processing device to the photo processing device. The image data is the same as the image data when input to the terminal processing apparatus, but the corrected image data corrected by some correction parameters and the remaining correction data may be transferred.
(4) In the present embodiment, the first image processing unit 10 by software is provided in the photo processing apparatus, but this may not be provided.

Schematic diagram showing the system overview Functional block diagram showing the configuration of the photo processing apparatus Functional block diagram showing the configuration of the terminal processing device The figure which shows the structural example of the monitor screen at the time of performing image processing work Flow chart showing the procedure of print creation processing

Explanation of symbols

1 Photo processing device 2 Terminal processing device 3 Network 8 Image data storage unit 10 First image processing unit 11 GUI
12 Image processing unit 13 Hardware control unit 14 Setting data file storage unit 17 Correction data storage unit 20 Image processing board 22 Image processing unit 24 Firmware 25 Processing selection unit 32 Exposure engine 40 Second image processing unit 41 GUI
42 Image processing means 43 Network control means 44 Monitor 45 Keyboard 46 Setting data file storage section 47 Image input device 48 Image data storage section 49 Correction data storage section 50 Order data storage section 52 Image data writing apparatus

Claims (4)

A photographic processing apparatus having an image exposure unit for printing and exposing an image on a photographic photosensitive material based on image data for exposure;
A terminal processing apparatus including an image processing unit having a function of performing image processing on input image data;
An image processing system comprising one or a plurality of the photographic processing devices and a network means for connecting the one or a plurality of the terminal processing devices,
The terminal processing device
Means for generating correction data as a result of image processing in the image processing unit;
Data sending means for sending image processing data including input image data and correction data to network means;
Photo processing equipment
Means for receiving image processing data sent by the terminal processing device;
An image processing system comprising exposure image data generating means for generating exposure image data based on the image processing data.   The image processing system according to claim 1, wherein the correction data includes data on the number of image exposures. A terminal processing device connected via a network means to a photographic processing device having a function of generating exposure image data based on image processing data,
An image processing unit having a function of performing image processing on input image data;
As a result of image processing in the image processing unit, means for generating correction data;
A terminal processing apparatus comprising: data sending means for sending image processing data including input image data and correction data to network means. A photographic processing apparatus connected via a network means to a terminal processing apparatus having an image processing unit having a function of performing image processing on input image data,
An image exposure unit that prints and exposes an image on a photographic photosensitive material based on image data for exposure;
Means for receiving image processing data including image data and correction data transmitted by the terminal processing device;
A photographic processing apparatus comprising: an exposure image data generating unit that generates exposure image data based on the image processing data.

Images